CN115159395A - Vertical workpiece transferring tool and using method thereof - Google Patents

Abstract

The invention relates to the technical field of workpiece transfer, and discloses a vertical workpiece transfer tool and a using method thereof, wherein the transfer tool comprises a transverse supporting arm, at least two workpiece fixing arms are arranged on the transverse supporting arm, the workpiece fixing arms are provided with binding surfaces which are vertically extended and arranged, and the horizontal cross-section size of the workpiece fixing arms is gradually increased from one end far away from the transverse supporting arm to one end close to the transverse supporting arm; the workpiece fixing piece is used for being detachably arranged on a test workpiece and is provided with an inserting through hole, and the radial section size of the inserting through hole is larger than the minimum horizontal section size of the workpiece fixing arm and smaller than the maximum horizontal section size of the workpiece fixing arm; and the forklift sleeve arm is movably arranged on the transverse supporting arm and is provided with a jack for inserting the forklift arm. The invention can keep the test workpiece vertical all the time, avoids the workpiece damage caused by the sliding of the test workpiece, does not need to stabilize the test workpiece manually, and reduces the manual input.

Description

Vertical workpiece transferring tool and using method thereof

Technical Field

The invention relates to the technical field of workpiece transfer, in particular to a vertical workpiece transfer tool and a using method thereof.

Background

In the sound insulation test, a test workpiece needs to be vertically installed into a sound insulation window frame. At present, as shown in fig. 1, a test workpiece 30 is installed by adopting a turnover installation method, the test workpiece 30 is forked to the front of a sound insulation window frame 20 by a forklift, one corner of the workpiece props against the bottom of the sound insulation window frame 20, the test workpiece 30 is manually stabilized, a forklift arm 10 is slowly moved from a position A to a position B, the forklift arm 10 is slowly lifted, and the test workpiece 30 is pushed to the sound insulation window frame 20 to a position D through a position C; the test workpiece 30 is tilted by the crowbar 40, and is mounted after the hole is drilled. However, in this mounting method, when the forklift arm 10 moves from the position a to the position B during mounting, the test workpiece 30 needs to be manually stabilized, the test workpiece has a large mass, and at least 4 persons are required for stabilization, which results in a large manpower input. And the work piece is in the transportation and the upset in-process, easily exists the slip between fork truck arm and the work piece, leads to causing the damage to the work piece.

Disclosure of Invention

In view of the above problems, the invention aims to provide a vertical workpiece transfer tool and a use method thereof, so as to solve the problems that in the prior art, when a test workpiece is mounted by adopting a turnover type mounting method, the labor input is large, and the workpiece is easily damaged due to the sliding between a forklift arm and the workpiece.

In order to achieve the purpose, the invention adopts the following technical scheme:

one aspect of the present invention provides a vertical workpiece transfer tool, including:

the workpiece fixing arms are respectively arranged in an extending manner along the thickness direction of the transverse supporting arm, the workpiece fixing arms are provided with binding surfaces which are arranged in an up-and-down extending manner along the vertical direction, and the horizontal cross section size of each workpiece fixing arm is gradually increased from one end far away from the transverse supporting arm to one end close to the transverse supporting arm;

the workpiece fixing piece is detachably arranged on a test workpiece and is provided with an inserting through hole which is sleeved on the workpiece fixing arm, the central axis direction of the hole of the inserting through hole is parallel to the extending direction of the attaching surface, and the radial cross section size of the inserting through hole is larger than the minimum horizontal cross section size of the workpiece fixing arm and smaller than the maximum horizontal cross section size of the workpiece fixing arm;

the forklift truck sleeve arm is movably mounted on the transverse supporting arm and provided with a jack used for inserting the forklift truck arm, and the central axis of the jack extends in the width direction of the transverse supporting arm.

Preferably, the workpiece fixing part is a U-shaped bolt, a bolt rod of the U-shaped bolt is assembled in a bolt hole on the test workpiece, and the insertion through hole is formed in a space between the U-shaped bolt and the test workpiece.

Preferably, a plurality of the U-bolts are located in the same horizontal plane.

Preferably, the workpiece fixing arm is quadrangular prism shape, one of the cylindrical surfaces of the workpiece fixing arm is the attaching surface, the workpiece fixing arm and the cylindrical surface opposite to the attaching surface are obliquely arranged, and the workpiece fixing arm and two adjacent cylindrical surfaces of the attaching surface are arranged in parallel.

Preferably, the transverse supporting arm, the workpiece fixing arm and the forklift sleeve arm are perpendicular to each other in pairs.

Preferably, at least two of said workpiece holding arms are spaced apart along the length of said transverse support arm.

Preferably, the workpiece fixing arms are two, the two workpiece fixing arms are respectively arranged at two ends of the transverse supporting arm, and the forklift sleeve arm is arranged in the middle of the transverse supporting arm.

Another aspect of the present invention provides a method for using the vertical workpiece transfer tool, including the following steps:

step S1, mounting a workpiece fixing piece on a test workpiece to be transferred;

s2, hoisting the test workpiece, and placing the test workpiece in a vertical state;

s3, inserting a forklift arm into a forklift sleeve arm, moving the transfer tool through a forklift, and inserting a workpiece fixing arm into an inserting through hole of a workpiece fixing piece;

s4, lifting the forklift arm to enable the test workpiece to be borne on one side of the workpiece fixing arm;

and S5, vertically transferring the test workpiece to the front of a sound insulation test window frame.

Preferably, after the step S5, a step S6 is further included: and adjusting the relative position of the U-shaped bolt and the test workpiece to adjust the size of the radial section of the insertion through hole.

Compared with the prior art, the vertical workpiece transferring tool and the using method thereof have the advantages that:

the invention embodiment of a vertical workpiece transfer tool and a use method thereof, wherein a transverse supporting arm supports a workpiece fixing arm and a forklift sleeve arm, the workpiece fixing arm is provided with a binding surface which extends vertically, the horizontal cross-sectional dimension of the workpiece fixing arm is gradually increased from one end far away from the transverse supporting arm to one end close to the transverse supporting arm, when the workpiece fixing arm is inserted into an insertion through hole of a workpiece fixing piece, the workpiece fixing piece can be clamped on the workpiece fixing arm due to the fact that the radial cross-sectional dimension of the insertion through hole is larger than the minimum horizontal cross-sectional dimension of the workpiece fixing arm and smaller than the maximum horizontal cross-sectional dimension of the workpiece fixing arm, and a test workpiece is fixed on one side of the workpiece fixing arm; before transporting test workpiece to sound insulation test window frame through transporting the frock, install test workpiece, transport the in-process of installing at test workpiece and remain throughout at vertical state, avoid test workpiece and transport to produce between the frock and slide and cause the work piece damage. In the workpiece transferring process, the test workpiece is borne and fixed through the workpiece fixing arm, the test workpiece is not required to be manually stabilized, and manual input is reduced.

Drawings

FIG. 1 is a schematic illustration of a prior art flip-mount installation for mounting a test workpiece;

FIG. 2 is a schematic three-dimensional structure diagram of a vertical workpiece transfer tool according to an embodiment of the invention;

FIG. 3 is a schematic front view of a vertical workpiece transfer tool according to an embodiment of the invention;

FIG. 4 is a schematic top view of a vertical workpiece transfer tool according to an embodiment of the invention;

FIG. 5 is a schematic side view of a vertical workpiece transfer tool according to an embodiment of the invention;

FIG. 6 is a schematic rear view of a vertical workpiece transfer tool according to an embodiment of the invention;

in the figure, 10, a forklift arm; 20. a sound insulation window frame; 30. testing the workpiece; 40. a crowbar;

1. a transverse support arm; 2. a workpiece fixing arm; 3. a forklift arm; 31. connecting blocks; 32. a connecting arm; 321. a jack; 4. a U-shaped bolt; 41. a nut; 5. and locking the pin.

Detailed Description

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in fig. 2 to 6, the vertical workpiece transfer tool according to the embodiment of the present invention includes a transverse support arm 1, a workpiece fixing member, and a forklift sleeve arm 3, wherein at least two workpiece fixing arms 2 are mounted on the transverse support arm 1, each workpiece fixing arm 2 extends along a thickness direction of the transverse support arm 1, the workpiece fixing arms 2 are provided with attachment surfaces extending vertically, and a horizontal cross-sectional dimension of each workpiece fixing arm 2 gradually increases from one end far away from the transverse support arm 1 to one end close to the transverse support arm 1; the workpiece fixing piece is used for being detachably installed on a test workpiece, the workpiece fixing piece is provided with an inserting through hole which is sleeved on the workpiece fixing arm 2, the central axis direction of the hole of the inserting through hole is arranged in parallel with the extending direction of the binding surface, and the radial cross-sectional dimension of the inserting through hole is larger than the minimum horizontal cross-sectional dimension of the workpiece fixing arm 2 and smaller than the maximum horizontal cross-sectional dimension of the workpiece fixing arm 2; the forklift sleeve arm 3 is movably mounted on the transverse supporting arm 1, the forklift sleeve arm 3 is provided with a jack 321 for inserting the forklift arm, and the central axis of the jack 321 extends along the width direction of the transverse supporting arm 1.

The workpiece fixing arm 2 and the forklift sleeve arm 3 are supported by the transverse supporting arm 1, the workpiece fixing arm 2 is provided with a binding surface which extends up and down along the vertical direction, the horizontal cross-sectional dimension of the workpiece fixing arm 2 is gradually increased from one end far away from the transverse supporting arm 1 to one end close to the transverse supporting arm 1, when the workpiece fixing arm 2 is inserted into the insertion through hole of the workpiece fixing piece, the workpiece fixing piece can be clamped on the workpiece fixing arm 2 because the radial cross-sectional dimension of the insertion through hole is larger than the minimum horizontal cross-sectional dimension of the workpiece fixing arm 2 and smaller than the maximum horizontal cross-sectional dimension of the workpiece fixing arm 2, a test workpiece is fixed on one side of the workpiece fixing arm 2, and the binding surface of the test workpiece and the workpiece fixing arm 2 is bound, so that the test workpiece can be in a vertical state; before transporting the test workpiece to the sound insulation test window frame through the transfer tool, the test workpiece is installed, the test workpiece is always kept in a vertical state in the process of transferring and installing the test workpiece, and workpiece damage caused by sliding generated between the test workpiece and the transfer tool is avoided. In the workpiece transferring process, the test workpiece is borne and fixed through the workpiece fixing arm 2, other bearing objects are not needed below the test workpiece, the test workpiece is stably fixed on one side of the workpiece fixing arm 2 by using the weight of the test workpiece, the structure is simplified, the test workpiece is prevented from sliding or falling in the transferring process, the test workpiece is not needed to be manually stabilized, manual input is reduced, and free transfer of the test workpiece is realized.

In this embodiment, as shown in fig. 2, two pairs of transverse supporting arms 1, workpiece fixing arms 2 and forklift sleeve arms 3 are perpendicular to each other, and when the forklift is used to move the transfer tool, the transverse supporting arms 1 can be ensured to be in a horizontal state by ensuring that the forklift sleeve arms 3 are in a horizontal state, so that the workpiece fixing arms 2 and the test workpiece are ensured to be in a vertical state.

Preferably, the workpiece fixing part is a U-shaped bolt 4, and a bolt rod of the U-shaped bolt 4 is assembled in a bolt hole on the test workpiece, wherein the opening position of the bolt hole on the test workpiece is arranged according to the specific shape of the test workpiece. The space between the U-shaped bolt 4 and the test workpiece forms the inserting through hole. A U-shaped bolt 4 mounting hole is formed in the test workpiece, the U-shaped bolt 4 and the test workpiece are fixed through nuts 41, wherein the nuts 41 are respectively arranged on two sides of the test workpiece to fix the nuts 41 and the U-shaped bolt 4. The size of the plugging through hole between the test workpiece and the U-shaped bolt 4 can be adjusted by adjusting the relative position of the nut 41 on the U-shaped bolt 4. Therefore, the U-shaped bolt 4 is used as a workpiece fixing piece, so that the workpiece fixing piece is convenient to mount and dismount, and the size of the insertion through hole is convenient to adjust, and the position of a test workpiece clamped on the workpiece fixing arm 2 is adjusted.

It should be noted that each workpiece-fixing arm 2 is provided with a corresponding workpiece-fixing member. Preferably, a plurality of the U-shaped bolts 4 are located in the same horizontal plane, so that the U-shaped bolts 4 are clamped at the positions of the plurality of workpiece fixing arms 2 and located on the same horizontal plane, so that the test workpiece is kept in a vertical state, and the left side and the right side of the test workpiece are prevented from being uneven in height. Therefore, the plurality of U-shaped bolts 4 are arranged in the same horizontal plane, so that the test workpiece is always in a vertical state in the transferring process, and the bottom surface of the test workpiece is in the horizontal plane when the test workpiece is installed.

When a plurality of U type bolts 4 are not in same horizontal plane, U type bolt 4 card is no longer in same horizontal plane in the position on each work piece fixed arm 2, then the uneven condition of both sides height about the test work piece will appear, at this moment, accessible adjusting nut 41 is the relative position on U type bolt 4, adjust the size of the grafting through-hole between test work piece and the U type bolt 4, adjust the position of U type bolt 4 card on work piece fixed arm 2, finally make the position of a plurality of U type bolts 4 cards on each work piece fixed arm 2 be located same horizontal plane, make the test work piece left and right sides be located same high position, make things convenient for the installation of test work piece in sound insulation test window frame.

In this embodiment, as shown in fig. 2, the workpiece fixing arm 2 is in a quadrangular prism shape, one of the cylindrical surfaces of the workpiece fixing arm 2 is the attachment surface, and the cylindrical surfaces of the workpiece fixing arm 2 opposite to the attachment surface are obliquely arranged, so that the horizontal cross-sectional dimension is large at the top; the workpiece fixing arm 2 and two adjacent cylindrical surfaces of the binding face are arranged in parallel, and the two parallel cylindrical surfaces can be adapted to the spacing distance between two bolt rods of the U-shaped bolt 4. The workpiece fixing arm 2 is set to be quadrangular and matched with the U-shaped bolt 4, so that the U-shaped bolt 4 can be more conveniently inserted.

The workpiece fixing arms 2 are provided with at least two, and the at least two workpiece fixing arms 2 are arranged at intervals along the length direction of the transverse supporting arm 1. Further, the workpiece fixing arms 2 are respectively arranged on two sides of the forklift sleeve arm 3 so as to provide balanced supporting force on two sides of the forklift sleeve arm 3. In this embodiment, the workpiece fixing arms 2 have two, and two the workpiece fixing arms 2 are installed respectively at the both ends of the transverse supporting arm 1, the fork truck sleeve arm 3 is installed at the middle part of the transverse supporting arm 1, so that the fork truck arm can lift the transverse supporting arm 1 in a balanced manner, and the workpiece fixing arms 2 can bear test workpieces in a balanced manner. Accordingly, the U-shaped bolts 4 are two and inserted into the two workpiece fixing arms 2.

In this embodiment, the workpiece fixing arms 2 are detachably mounted on the transverse support arm 1 so as to adjust the spacing distance between the two workpiece fixing arms 2, so that the spacing distance is suitable for test workpieces of different sizes. After the position of the workpiece fixing arm 2 on the transverse supporting arm 1 is determined, the workpiece fixing arm can be locked and fixed through a locking pin 5. Fork truck arm 3 detachably installs on transverse supporting arm 1 to convenient adjustment two fork truck arm 3 between the spacing distance, make it be applicable to different spaced fork truck arms and insert, and the position through removing fork truck arm 3, can conveniently adjust two work piece fixed arms 2's position, further make the interval of two work piece fixed arms 2 be applicable to not unidimensional test workpiece. After the position of the fork lift sleeve arm 3 on the transverse supporting arm 1 is determined, the fork lift sleeve arm is locked and fixed through a locking pin 5. The workpiece fixing arm 2 and the forklift sleeve arm 3 can be provided with fixing holes for inserting the locking pins 5.

Optionally, as shown in fig. 2, the forklift sleeve arm 3 includes a connecting block 31 and a connecting arm 32, the connecting block 31 is sleeved on the transverse supporting arm 1, a mounting hole for mounting the locking pin 5 is formed in the connecting block 31, and the connecting block 31 and the transverse supporting arm 1 are fixed by inserting the locking pin 5 into the mounting hole; the connecting arm 32 is fixed on one side of the connecting block 31, and the insertion hole 321 is arranged in the connecting arm 32 and extends along the length direction of the connecting arm 32.

The use method of the vertical workpiece transfer tool comprises the following steps:

step S1, mounting a workpiece fixing piece on a test workpiece to be transferred, and enabling the hole central axis direction of an inserting through hole of the workpiece fixing piece and the extending direction of a binding surface of a workpiece fixing arm 2 to be arranged in parallel, so that the test workpiece can be kept in a vertical state when the test workpiece is transferred, namely the test workpiece is located in a vertical plane;

s2, hoisting a test workpiece, and placing the test workpiece in a vertical state;

s3, inserting a forklift arm into the forklift sleeve arm 3, moving the transfer tool through a forklift, and inserting the workpiece fixing arm 2 into the insertion through hole of the workpiece fixing piece;

s4, lifting the forklift arm to enable the test workpiece to be borne on one side of the workpiece fixing arm 2, and detaching the hoisting tool; at the moment, the workpiece fixing piece is clamped on the workpiece fixing arm 2 to fix the test workpiece and the workpiece fixing arm 2, and no other bearing object is needed below the test workpiece;

and S5, vertically transferring the test workpiece to the front of a sound insulation test window frame.

According to the invention, the test workpiece is transported by using the vertical workpiece transporting tool, so that the transporting efficiency can be improved, and the damage to the test workpiece can be reduced.

Further, after the step S5, a step S6 is further included: adjust U type bolt 4 with the relative position of test workpiece to the radial cross-section size of regulation grafting through-hole, thereby adjust the position of U type bolt 4 card on work piece fixed arm 2, make the position of a plurality of U type bolts 4 cards on work piece fixed arm 2 be located same horizontal plane, make the left and right sides of test workpiece be located same height, avoid the left and right sides height irregularity of test workpiece, thereby conveniently install the test workpiece in sound insulation test window frame.

Further, after the step S6, the workpiece fixing piece is disassembled, and the forklift withdraws the transfer tool from the test workpiece.

According to the vertical workpiece transferring tool, the test workpiece is transferred to the front of the sound insulation window frame, and the test workpiece is accurately installed through the positioning pin on the sound insulation window frame and the positioning hole of the test workpiece, so that the vertical workpiece transferring tool is efficient and rapid. Taking a test workpiece on the floor of a cab as an example, the test workpiece has a length of 2.6 meters, a width of 2.5 meters and a mass of 897kg. The turnover method is adopted for installation, 5 persons (1 forklift driver and 4 installers) are invested, the time is taken for 4 hours, 2 persons (1 forklift driver and 1 installer) are invested by adopting the transfer tool for installation, the time is taken for 1 hour, 18 persons are saved for 1 hour, and the labor cost is saved for 1440 yuan in a single test.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many modifications and substitutions can be made without departing from the technical principle of the present invention, and these modifications and substitutions should also be regarded as the protection scope of the present invention.

Claims (9)

1. The utility model provides a frock is transported to vertical work piece which characterized in that includes:

the workpiece fixing arms are respectively arranged in an extending manner along the thickness direction of the transverse supporting arm, the workpiece fixing arms are provided with binding surfaces which are arranged in an up-and-down extending manner along the vertical direction, and the horizontal section size of each workpiece fixing arm is gradually increased from one end far away from the transverse supporting arm to one end close to the transverse supporting arm;

the workpiece fixing piece is detachably arranged on a test workpiece and is provided with an inserting through hole which is sleeved on the workpiece fixing arm, the central axis direction of the hole of the inserting through hole is parallel to the extending direction of the attaching surface, and the radial cross section size of the inserting through hole is larger than the minimum horizontal cross section size of the workpiece fixing arm and smaller than the maximum horizontal cross section size of the workpiece fixing arm;

the forklift truck sleeve arm is movably mounted on the transverse supporting arm and provided with a jack used for inserting the forklift truck arm, and the central axis of the jack extends in the width direction of the transverse supporting arm.

2. The vertical workpiece transfer tool according to claim 1, wherein the workpiece fixing member is a U-shaped bolt, a bolt rod of the U-shaped bolt is assembled in a bolt hole in the test workpiece, and the insertion through hole is formed in a space between the U-shaped bolt and the test workpiece.

3. The vertical workpiece transfer tool according to claim 2, wherein the plurality of U-shaped bolts are located in the same horizontal plane.

4. The vertical workpiece transfer tool according to claim 1, wherein the workpiece fixing arm is quadrangular, one of the cylindrical surfaces of the workpiece fixing arm is the fitting surface, the cylindrical surface of the workpiece fixing arm opposite to the fitting surface is obliquely arranged, and the two adjacent cylindrical surfaces of the workpiece fixing arm and the fitting surface are arranged in parallel.

5. The vertical workpiece transfer tool of claim 1, wherein the transverse support arm, the workpiece fixing arm, and the forklift sleeve arm are perpendicular to each other two by two.

6. The vertical workpiece transfer tool of claim 1, wherein at least two of the workpiece securing arms are spaced apart along a length of the transverse support arm.

7. The vertical workpiece transfer tool according to claim 1, wherein the number of the workpiece fixing arms is two, the two workpiece fixing arms are respectively mounted at two ends of the transverse supporting arm, and the forklift sleeve arm is mounted in the middle of the transverse supporting arm.

8. The use method of the vertical workpiece transfer tool according to any one of claims 1 to 7, characterized by comprising the following steps:

step S1, mounting a workpiece fixing piece on a test workpiece to be transferred;

s2, hoisting the test workpiece, and placing the test workpiece in a vertical state;

s3, inserting a forklift arm into a forklift sleeve arm, moving the transfer tool through a forklift, and inserting the workpiece fixing arm into the insertion through hole of the workpiece fixing piece;

s4, lifting the forklift arm to enable the test workpiece to be borne on one side of the workpiece fixing arm;

and S5, vertically transferring the test workpiece to the front of a sound insulation test window frame.

9. The use method of the vertical workpiece transfer tool according to claim 8, characterized by further comprising the step S6 after the step S5: and adjusting the relative position of the U-shaped bolt and the test workpiece so as to adjust the size of the radial section of the plugging through hole.

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